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ATLAS Data Challenge Production Experience

ATLAS Data Challenge Production Experience. Kaushik De University of Texas at Arlington Oklahoma D0 SARS Meeting September 26, 2003. ATLAS Data Challenges. Original Goals (Nov 15, 2001)

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ATLAS Data Challenge Production Experience

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  1. ATLAS Data Challenge ProductionExperience Kaushik De University of Texas at Arlington Oklahoma D0 SARS Meeting September 26, 2003

  2. ATLAS Data Challenges • Original Goals (Nov 15, 2001) • Test computing model, its software, its data model, and to ensure the correctness of the technical choices to be made • Data Challenges should be executed at the prototype Tier centres • Data challenges will be used as input for a Computing Technical Design Report due by the end of 2003 (?) and for preparing a MoU • Current Status • Goals are evolving as we gain experience • Computing TDR ~end of 2004 • DC’s are ~yearly sequence of increasing scale & complexity • DC0 and DC1 (completed) • DC2 (2004), DC3, and DC4 planned • Grid deployment and testing is major part of DC’s Kaushik De, D0 SARS Meeting, Oklahoma University

  3. ATLAS DC1: July 2002-April 2003Goals : Produce the data needed for the HLT TDR Get as many ATLAS institutes involved as possibleWorldwide collaborative activityParticipation : 56 Institutes (39 in phase 1) • Australia • Austria • Canada • CERN • China • Czech Republic • Denmark * • France • Germany • Greece • Israel • Italy • Japan • Norway * • Poland • Russia • Spain • Sweden * • Taiwan • UK • USA * • New countries or institutes • * using Grid Kaushik De, D0 SARS Meeting, Oklahoma University

  4. Process No. of events CPU Time CPU-days (400 SI2k) Volume of data kSI2k.months TB Simulation Physics evt. 107 415 30000 23 Simulation Single part. 3x107 125 9600 2 Lumi02 Pile-up 4x106 22 1650 14 Lumi10 Pile-up 2.8x106 78 6000 21 Reconstruction 4x106 50 3750 Reconstruction + Lvl1/2 2.5x106 (84) (6300) Total 690 (+84) 51000 (+6300) 60 DC1 Statistics (G. Poulard, July 2003) Kaushik De, D0 SARS Meeting, Oklahoma University

  5. DC2:Scenario & Time scale (G. Poulard) • Put in place, understand & validate: • Geant4; POOL; LCG applications • Event Data Model • Digitization; pile-up; byte-stream • Conversion of DC1 data to POOL; large scale persistency tests and reconstruction • Testing and validation • Run test-production • Start final validation • Start simulation; Pile-up & digitization • Event mixing • Transfer data to CERN • Intensive Reconstruction on “Tier0” • Distribution of ESD & AOD • Calibration; alignment • Start Physics analysis • Reprocessing • End-July 03: Release 7 • Mid-November 03: pre-production release • February 1st 04: Release 8 (production) • April 1st 04: • June 1st 04: “DC2” • July 15th Kaushik De, D0 SARS Meeting, Oklahoma University

  6. U.S. ATLAS DC1 Data Production • Year long process, Summer 2002-2003 • Played 2nd largest role in ATLAS DC1 • Exercised both farm and grid based production • 10 U.S. sites participating • Tier 1: BNL, Tier 2 prototypes: BU, IU/UC, Grid Testbed sites: ANL, LBNL, UM, OU, SMU, UTA (UNM & UTPA will join for DC2) • Generated ~2 million fully simulated, piled-up and reconstructed events • U.S. was largest grid-based DC1 data producer in ATLAS • Data used for HLT TDR, Athens physics workshop, reconstruction software tests... Kaushik De, D0 SARS Meeting, Oklahoma University

  7. BNL - U.S. Tier 1, 2000 nodes, 5% for ATLAS, 10 TB, HPSS through Magda LBNL - pdsf cluster, 400 nodes, 5% for ATLAS (more if idle ~10-15% used), 1TB Boston U. - prototype Tier 2, 64 nodes Indiana U. - prototype Tier 2, 64 nodes UT Arlington - new 200 cpu’s, 50 TB Oklahoma U. - OSCER facility U. Michigan - test nodes ANL - test nodes, JAZZ cluster SMU - 6 production nodes UNM - Los Lobos cluster U. Chicago - test nodes U.S. ATLAS Grid Testbed Kaushik De, D0 SARS Meeting, Oklahoma University

  8. U.S. Production Summary • Exercised both farm and grid based production • Valuable large scale grid based production experience * Total ~30 CPU YEARS delivered to DC1 from U.S. * Total produced file size ~20TB on HPSS tape system, ~10TB on disk. * Black - majority grid produced, Blue - majority farm produced Kaushik De, D0 SARS Meeting, Oklahoma University

  9. Figure : Pie chart showing the number of pile-up jobs successfully completed at various U.S. grid sites for dataset 2001 (25 GeV dijets). A total of 6000 partitions were generated. Figure : Pie chart showing the sites where DC1 single particle simulation jobs were processed. Only three grid testbed sites were used for this production in August 2002. Grid Production Statistics These are examples of some datasets produced on the Grid. Many other large samples were produced, especially at BNL using batch. Kaushik De, D0 SARS Meeting, Oklahoma University

  10. DC1 Production Systems • Local batch systems - bulk of production • GRAT - grid scripts, generated ~50k files produced in U.S. • NorduGrid - grid system, ~10k files in Nordic countries • AtCom - GUI, ~10k files at CERN (mostly batch) • GCE - Chimera based, ~1k files produced • GRAPPA - interactive GUI for individual user • EDG - test files only • + systems I forgot… • More systems coming for DC2 • LCG • GANGA • DIAL Kaushik De, D0 SARS Meeting, Oklahoma University

  11. GRAT Software • GRid Applications Toolkit • developed by KD, Horst Severini, Mark Sosebee, and students • Based on Globus, Magda & MySQL • Shell & Python scripts, modular design • Rapid development platform • Quickly develop packages as needed by DC • Physics simulation (GEANT/ATLSIM) • Pileup production & data management • Reconstruction • Test grid middleware, test grid performance • Modules can be easily enhanced or replaced, e.g. EDG resource broker, Chimera, replica catalogue… (in progress) Kaushik De, D0 SARS Meeting, Oklahoma University

  12. Prod. (UTA) MAGDA (BNL) Replica (local) 9 8 scratch 2 4 7 1,4,5,10 DC1 Remote Gatekeeper 5 Batch Execution 6 3 Param (CERN) GRAT Execution Model 1. Resource Discovery 2. Partition Selection 3. Job Creation 4. Pre-staging 5. Batch Submission 6. Job Parameterization 7. Simulation 8. Post-staging 9. Cataloging 10. Monitoring Kaushik De, D0 SARS Meeting, Oklahoma University

  13. Databases used in GRAT • Production database • define logical job parameters & filenames • track job status, updated periodically by scripts • Data management (Magda) • file registration/catalogue • grid based file transfers • Virtual Data Catalogue • simulation job definition • job parameters, random numbers • Metadata catalogue (AMI) • post-production summary information • data provenance Kaushik De, D0 SARS Meeting, Oklahoma University

  14. U.S. Middleware Evolution Globus Used for 95% of DC1 production Condor-G Used successfully for simulation Used successfully for simulation (complex pile-up workflow not yet) DAGMan Tested for simulation, used for all grid-based reconstruction Chimera LCG Kaushik De, D0 SARS Meeting, Oklahoma University

  15. U.S. Experience with DC1 • ATLAS software distribution worked well for DC1 farm production, but not well suited for grid production • No integration of databases - caused many problems • Magda & AMI very useful - but we are missing data management tool for truly distributed production • Required a lot of people to run production in the U.S., especially with so many sites on both grid and farm • Startup of grid production slow - but learned useful lessons • Software releases were often late - leading to chaotic last minute rush to finish production Kaushik De, D0 SARS Meeting, Oklahoma University

  16. Plans for New DC2 Production System • Need unified system for ATLAS • for efficient usage of facilities, improved scheduling, better QC • should support all varieties of grid middleware (& batch?) • First “technical” meeting at CERN August 11-12, 2003 • phone meetings, forming code development groups • all grid systems represented • design document is being prepared • planning a Supervisor/Executor model (see fig. next slide) • first prototype software should be released ~6 months • U.S. well represented in this common ATLAS effort • Still unresolved - Data Management System • Strong coordination with database group Kaushik De, D0 SARS Meeting, Oklahoma University

  17. Schematic of New DC2 System • Main features • Common production database for all of ATLAS • Common ATLAS supervisor run by all facilities/managers • Common data management system a la Magda • Executors developed by middleware experts (LCG, NorduGrid, Chimera teams) • Final verification of data done by supervisor • U.S. involved in almost all aspects - could use more help Kaushik De, D0 SARS Meeting, Oklahoma University

  18. Conclusion • Data Challenges are important for ATLAS software and computing infrastructure readiness • U.S. playing a major role in DC planning & production • 12 U.S. sites ready to participate in DC2 • UTA & OU - major role in production software development • Physics analysis will be emphasis of DC2 - new experience • Involvement by more U.S. physicists is needed in DC2 • to verify quality of data • to tune physics algorithms • to test scalability of physics analysis model Kaushik De, D0 SARS Meeting, Oklahoma University

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